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S.I. Version Engine with Disintegrated Process-Expectancies Based on Model Computations and Today Engine Experiences
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English
Abstract
The idea of a piston I.C. engine with a disintegrated process is represented and evaluated. A detailed analysis is made of the S.I. version particulary from the point of view of engine performance parameters, fuel tolerance and emission, as the most important criteria for engines for vehicle application. The estimations regarding performances are based on model computations of the thermodynamic cycle, applying the analytical models of combustion, mass and heat flows within the simplifications common in similar preliminary computations of processes in today engines. Regarding the above mentioned last two criteria, the results of computations can not be significant in the phase of idea: taking into acconnt the experiences with conventional engines, analysing the similarities and differences, it is the only acceptable way.
Citation
Pavletič, R., Sinyavskiy, V., and Bizjan, F., "S.I. Version Engine with Disintegrated Process-Expectancies Based on Model Computations and Today Engine Experiences," SAE Technical Paper 900230, 1990, https://doi.org/10.4271/900230.Also In
References
- Pavletič, R. Vuksanović, B. Pečjak, A. Zgonik, M. Regeneration of heat in piston internal combustion engines - pross and cons? SAE Tech.paper 859375
- Pavletič, R. Prebil, I. Vuksanović, B. Zgonik, M. Construction specialties or regenerative piston internal combustion engines SAE Tech.paper 861193
- Vibe, I.I. Novoye o rabochem tsiclye dvigately Moscow 1962
- Heywood, J.B. Internal combustion engines fundamentals McGraw-Hill Book Company New York 1988
- Kchachiyan, A.S. Sinyavskiy, V.V. Gergender, V.A. Borisencov, E.P. Moscow 1987
- Janota, M.S. The energy equation, flow through valves and parts, scavanging Turbocharging the internal combustion engine London 1979
- Ferguson, C.R. Internal combustion engines, applied thermosciences John Wiley & Sons New York 1986